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Corn an A-maizing Plant: Food, Fuel, and Plastic

Grade Level(s)

3 - 5

Estimated Time

1.5 hours

Purpose

Students will examine the growth, composition, history, and uses of corn through a close reading activity, discussion of renewable and non-renewable resources, and hands-on exploration of bioplastics made from corn.

Materials

Motivator:

Corn/Corn-Free Products Image

Corn/Corn-Free Product List

Corn: A Golden Treasure handout

Activity 1:

United States Map

A Brief History of Corn handout

A Golden Nugget PowerPoint

Activity 2:

Renewable vs. Nonrenewable cards

Activity 3:

10 Styrofoam packing peanuts*

10 biodegradable packing peanuts*

2 sandwich-size resealable bags

Physical and Chemical Change PowerPoint

Sandwich-size resealable bags, 1 per group

Cornstarch, 1 tablespoon per group

Corn oil, 2 drops per group

Water, 1 tablespoon per group

Food coloring, 2 drops per group

Tablespoons, 1 per group

Bioplastic activity sheet

*These items are included in the Packing Peanuts Kit, which is available for purchase from agclassroomstore.com.

germ: the living embryo of the corn kernel that contains the essential genetic information, enzymes, vitamins, and minerals for the kernel to grow into a corn plant

endosperm: tissue formed within a seed that contains energy (starch) and protein for the germinating seed

Corn Belt: the area of the United States where corn is the predominant crop grown

compostable: capable of breaking down through the actions of living organisms in specific conditions to a defined outcome; generally, the conditions are moist, warm, and aerobic, and the end product is non-toxic compost that can enhance soil and support plant growth

by-products: in agriculture, secondary products produced from the main product of a crop or animal; for example, cornstarch is a by-product of corn

bushel: for corn, a unit of weight equal to 56 pounds

bioplastics: a group of plastics made from biological materials like plant starches, cellulose, oils, or protein

biodegradable: capable of being broken down through the actions of living organisms and natural processes over time

Did you know? (Ag Facts)

In 2015, US corn growers produced an average of 168 bushels per acre.2

An average ear of corn has 800 kernels, and there are approximately 72,000 kernels in one bushel of corn.3

One bushel of corn provides: 31.5 lbs of starch or 33 lbs of sweetener or 2.8 gallons of ethanol.3

Background Agricultural Connections

The Corn Belt is a region of the United States where corn is the predominant crop grown. Iowa and Illinois are the top corn-producing states, and they typically grow just over one-third of the US crop. Other major states for corn production include Nebraska, Minnesota, Indiana, Wisconsin, Michigan, South Dakota, Kansas, Missouri, Kentucky, and Ohio. These twelve states can be considered part of the Corn Belt. Warm, rainy summers and deep, fertile soils make this region particularly well suited for growing corn.

An ear of corn has an average of sixteen rows with 800 kernels. There are approximately 1300 kernels in one pound of corn. An acre (about the size of a football field) of corn can yield more than 13 million kernels. In the United States, corn production is commonly measured in bushels. This measurement originated as a unit of volume but has been standardized to units of weight for different commodities. One bushel of shelled corn is equivalent to 56 pounds.

First domesticated in Mexico, corn is now grown on every continent of the world except Antarctica. The United States produces more corn than any other country. The scientific name for corn is Zea mays. All types of corn belong to this species, including sweet corn, popcorn, dent (field) corn, flour corn, and flint corn. Dent corn is the type most widely grown and processed in the United States. Hybrids of corn, produced by crossbreeding different varieties, have been developed to grow well in varying conditions and locations worldwide. The development of hybrid varieties, along with synthetic fertilizers and new farm machinery, has facilitated huge increases in corn productivity. Today, more corn can be grown on less land than ever before.

Similarly, advances in technology allow us to use more components of the processed corn kernel than ever before. One hundred years ago, starch was the main product used from refined corn, while the rest of the kernel was thrown away. Today, there are uses for every part of the kernel—even the water in which it is processed. The corn seed (kernel) is composed of four main parts: the endosperm, the pericarp, the germ, and the tip cap. The endosperm makes up most of the dry weight of the kernel and provides the source of energy for the seed. The pericarp is the hard, outer coat that protects the kernel both before and after planting. The germ is the living embryo of the corn kernel. It contains genetic information, vitamins, and minerals that the kernel needs to grow. The tip cap is where the kernel is attached to the cob and is the major entry path into the kernel for water and nutrients.

Corn is a versatile crop. It is the major grain grown for livestock feed by farmers in the United States, leading all other feed crops in value and volume of production. Corn is a major component in foods like cereals, peanut butter, and snack foods, and it is also processed into a wide range of industrial products, including ethanol. The kernel is used as oil, bran, starch, glutamates, animal feed, and solvents. The silk is combined with other parts of the corn plant to be used as part of animal feed, silage, and fuels. Husks are made into dolls and used as filling materials. The stalk is used to make paper, wallboard, silage, syrup, and rayon (artificial silk).

Corn can also be used to make a type of plastic known as bioplastic. Commonly, plastic is made from petroleum, a fossil fuel that is a nonrenewable resource. In contrast, bioplastic is made from biological materials—plant starches, cellulose, oils, or proteins. Unlike petroleum-based plastics, bioplastics are made from renewableresources such as corn, potatoes, tapioca, and casein (milk protein). One example of a bioplastic application is packing peanuts—the loose fill that goes all over when you open a package. Some packing peanuts are made of polystyrene (Styrofoam), which is a petroleum-based plastic. Corn-based packing peanuts are made of over 99% cornstarch and a very small percentage of food-grade oil. These packing peanuts are non-toxic, biodegradable, and compostable.

It is important to note that there are pros and cons to both bioplastics and petroleum-based plastics. There are also some common misconceptions about the differences between these groups of plastics. For example, both bioplastics and petroleum-based plastics can be biodegradable, meaning that over time they break down into compounds like carbon dioxide, water, and methane when exposed to naturally occurring microorganisms like bacteria, fungi, and algae.1 Also, some bioplastics are recyclable.1 The ability of a plastic to be recycled or to biodegrade depends on the chemical structure of the plastic, not whether the plastic is made from renewable or nonrenewable materials. In addition, many people are unaware that the raw materials used to make petroleum-based plastics are the by-products of refining crude oil for fuel. If these by-products were not used to make plastics, they would be industrial waste that would need to be disposed of. For more illustration, see the segment from D News, The Truth About Biodegradable Plastic.

Interest Approach – Engagement

Provide each student with the Corn/Corn-Free Product List and project the photograph of the corn and corn-free products on the classroom screen. Explain that every item on the list is shown in the photograph. Ask the students to circle each item on the list that they think contains corn.

After the students have finished circling the items, tell them that only one of the items does not contain corn. Ask the students to tell you which item they think does not contain corn.

Reveal to the class that the only item on the list that does not contain corn is the pasta. It contains wheat flour, not corn flour. Refer to the list below to explain what form of corn each remaining item contains.

Aspirin – cornstarch

Baking Powder – cornstarch

Batteries – cornstarch (insulation)

Bubble Gum – corn syrup

Coke – corn syrup

Corn Tortillas – corn flour

Crayons – corn oil

Crunch Berries – corn syrup

Diaper – cornstarch

Gain Detergent – cornstarch

Matches – cornstarch (match head)

Pasta – does not contain corn

Shoelaces – cornstarch (for smooth tying)

Snickers Bar – corn syrup

Show students the Corn: A Golden Treasure handout. Explain that corn is not only used in food products but also in many non-food items we use every day.

Procedures

Activity 1: A Brief History of Corn

Provide each student with a copy of the A Brief History of Corn handout. Have students do a close reading of the text. For more information about the close reading strategy, refer to the resource guideSupporting Students in Close Reading.

Using the map of the United States, have students identify and highlight the states that are part of the Corn Belt—Iowa, Illinois, Nebraska, Minnesota, Indiana, Wisconsin, Michigan, South Dakota, Kansas, Missouri, Kentucky, and Ohio. Explain to the students that the warm, rainy summers and deep, fertile soils in this region of the United States are particularly well suited for growing corn.

Use the A Golden Nugget PowerPoint to discuss the different types of corn plants and their uses, the structure of a corn kernel, and the functions of each part of the kernel.

Discussion Questions: Who used corn in ancient times? What are some of the ways corn is used today? Where is most of the corn grown in the United States? How have the uses of corn changed over time? What are the parts of the corn kernel called, and how are these parts useful?

Activity 2: Renewable vs. Nonrenewable Resources

Write the word “Resources” on the center of the white board. Discuss what kinds of resources are essential to our everyday lives. We use many resources to provide our basic needs­—food, water, shelter, and clothing.

Write the word “Nonrenewable” on one side of the board and “Renewable” on the other side. Discuss the definitions of each word.

Nonrenewable resources are made naturally by the earth but do not renew themselves fast enough for people to count on having the resource for an indefinite period time. Some resources are considered nonrenewable because access to the resource is limited. For example, glass and metal are nonrenewable resources. The elements and minerals used to make glass and metal are found in the structure of the earth's crust, but we are limited to what we can access through mining.

Renewable resources are either naturally reproduced at a sustainable rate or they can be produced in agriculture at a rate equivalent to the demand or need. For example, corn can be used for ethanol fuel, and a new crop of corn can be grown and harvested each year. Corn is a renewable resource.

Divide the students into ten groups and give each group one of the Renewable vs. Nonrenewable cards. Each of these cards represents something that we use in our day-to-day activities. Ask each group to read their card and determine if the resource is renewable or nonrenewable. Once they have decided, they should place their card on the appropriate side of the board.

Nonrenewable: gasoline, plastic, glass, metal

Renewable: energy from the wind, energy from the sun, biodiesel, paper, food, and clothing

Discuss the placement of the cards as a class. Emphasize that renewable resources are often grown or produced by farmers in a relatively short amount of time. Most nonrenewable resources are produced naturally by or in the earth. They can take thousands of years to form.

Pick up or point to the “Plastic” card, which should be on the nonrenewable side of the board. Transition to the next activity by telling students that there is a method of making plastic that can be renewable.

Activity 3: Making Bioplastic

Introduce the word “bioplastic” by writing it on the board and breaking it into two parts. “Bio” means that it comes from a living thing. “Bioplastic” is plastic that comes from a living thing.

Place ten Styrofoam packing peanuts and ten biodegradable packing peanuts into two separate sandwich-size resealable bags. Add one cup of water to each bag, seal tight, and shake. The biodegradable peanuts will dissolve in less than ten seconds, while the Styrofoam will remain unchanged. Refer to the Physical and Chemical Change PowerPoint to discuss the physical change that takes place when the biodegradable packing peanuts dissolve in water.

Explain to the students that the biodegradable packing peanuts are made of over 99% cornstarch and a small amount of food grade oil. The Styrofoam packing peanuts are made from petroleum. As a class, discuss the pros and cons of the two types of packing peanuts.

Explain to the students that they will be making another type of bioplastic out of materials that come from the corn plant. Divide the class into groups of 4-5 students. Give each group cornstarch, corn oil, water, and food coloring.

To make the bioplastic, have the students combine 1 tablespoon of cornstarch, 2 drops of corn oil, 1 tablespoon of water, and 2 drops of food coloring in a resealable sandwich-size bag.

Instruct students to seal the bag and mix the ingredients by rubbing the outside of the bag with their fingers until the ingredients are thoroughly combined.

Open the bag slightly, making sure it can vent, and place it into a microwave oven on high for 20-25 seconds.

Carefully remove the bag from the microwave, and let it cool for a few minutes. While it is still warm, allow the students to form their plastic into a ball. Refer to the Physical and Chemical Change PowerPoint to discuss the chemical change that occurs when the bioplastic is made.

Ask the students to complete the Making Bioplastic activity sheet and then discuss their observations as a class.

Concept Elaboration and Evaluation

After conducting these activities, review and summarize the following key concepts:

Corn is a versatile crop used for human consumption, livestock feed, and a wide range of industrial products, including bioplastics.

Renewable resources can be replaced naturally or by human efforts at a sustainable rate.

Bioplastics are made from renewable, biological materials produced on farms.

Refer to the information found in the Background Agricultural Connections section of the lesson to help guide this discussion. Be sure students recognize that while corn plastic is made from a renewable resource, there are still pros and cons to its use. Point out to students that scientists will be needed to help discover new and improved solutions to challenges surrounding the use of natural resources, the best methods of recycling, and the reduction of waste in our landfills and oceans.

Enriching Activities

Learn more about how petroleum-based plastic is made and recycled by watching the video From Oil to Plastic.

Make corn Johnnycakes in your classroom. The batter is simple to prepare and cooks quickly on an electric griddle.

Read Issue5 of Ag Todaytitled Agriculture in Society. This reader can be printed or accessed digitally. Students will learn the term sustainability and what that means to farmers who need to produce 60% more food with the same amount of land in order to feed a growing world population.Learn what byproducts are and how they are used, how food packaging has decreased waste, and how farmers use technology such as various tools, robots, and hand-held devices to improve their efficiency.

Sources/Credits

The bioplastic or corn plastic activity has been part of numerous presentations and published informally by several Agriculture in the Classroom programs and agricultural science programs. The original source for the bioplastic mixture is unknown.

State Standards for Utah

Explain how selected indigenous cultures of the Americas have changed over time. Meeting one or more of the following indicators: a) Describe and compare early indigenous peoples of the Americas (e.g. Eastern Woodlands, Plains, Great Basin, Southwestern, Artic, Incan, Aztec, Mayan). b) Analyze how these cultures changed with the arrival of people from Europe, and how the cultures of the Europeans changed. c) Identify how indigenous people maintain cultural traditions today.

Describe and explain the growth and development of the early American colonies. Meeting one or more of the following indicators: e) Compare the geographic and cultural differences between the New England,Middle, and Southern colonies (e.g., religious, economic, political). f) Analyze contributions of American Indian people to the colonial settlements.

Agricultural Literacy Outcomes

Plants and Animals for Food, Fiber & Energy

Distinguish between renewable and non-renewable resources used in the production of food, feed, fuel, fiber and shelter (T2.3-5.b)

Common Core Connections

Make sense of problems and persevere in solving them. Students start by explaining to themselves the meaning of a problem and looking for entry points to its solution. They analyze givens, constraints, relationships, and goals. They make conjectures about the form and meaning of the solution and plan a solution pathway rather than simply jumping into a solution attempt. They consider analogous problems, and try special cases and simpler forms of the original problem in order to gain insight into its solution. They monitor and evaluate their progress and change course if necessary. Students check their answers to problems using a different method, and they continually ask themselves, “Does this make sense?” They can understand the approaches of others to solving complex problems and identify correspondences between different approaches.